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Improved organic matter biodegradation through pulsed H2 injections during in situ biomethanation

M. Mahieux, Quentin Aemig, Caroline Richard, J-P. Delgenès, Marine Juge, Éric Trably, Renaud Escudié

2024Bioresource Technology11 citationsDOIOpen Access PDF

Abstract

During in situ biomethanation, microbial communities can convert complex Organic Matter (OM) and H2 into CH4. OM biodegradation was compared between Anaerobic Digestion (AD) and in situ biomethanation, in semi-continuous processes, using two inocula from the digester (D) and the post-digester (PoD) of an AD plant. The impact of H2 on OM degradation was assessed using a fractionation method. Operational parameters included 20 days of hydraulic retention time and 1.5 gVS.L−1.d−1 of organic loading rate. During in situ biomethanation, 485 NmL of H2 were injected for each feeding (3 times a week). Maximum organic COD removal was 0.6 gCOD in AD control and at least 1.6 gCOD for in situ biomethanation. Therefore, COD removal was 2.5 times higher with H2 injections. These results bring out the potential of H2 injections during AD, not only for CO2 consumption but also for better OM degradation.

Topics & Concepts

BiodegradationOrganic matterIn situDegradation (telecommunications)Anaerobic digestionBiogasHydraulic retention timeFractionationPulp and paper industryAnaerobic exerciseWaste managementChemistryEnvironmental scienceMethaneEnvironmental engineeringSewage treatmentChromatographyBiologyTelecommunicationsComputer sciencePhysiologyOrganic chemistryEngineeringAnaerobic Digestion and Biogas ProductionCarbon Dioxide Capture TechnologiesHybrid Renewable Energy Systems
Improved organic matter biodegradation through pulsed H2 injections during in situ biomethanation | Litcius